1) electric field microsensor
微型电场传感器
1.
An electric field microsensor based on electrostatic comb -driven and differential detecting was presented.
研制了一种基于静电梳齿激励、差分检测式微型电场传感器。
2) thermoelectric microsensors
热电型微传感器
3) Micro sensor
微型传感器
1.
One particularly active research area is the development of micro sensor systems.
其中开发可应用于常规工业领域的微型传感器成为该领域的研究重点。
4) micro-sensor
微型传感器
1.
An electrical capacitance tomography micro-sensor was developed and applied to the visualized measurement of two-phase flow as well as the measurement of the liquid film thickness in a pulsating heat pipe.
本文提出一种电容层析成像微型传感器,实现脉动热管内两相流的可视化监测及液膜厚度的测量。
2.
This paper studies the collaborative classification theory and technology of the sensed information from micro-sensor networks,focusing on the collaborative classification algorithms suitable to different environment conditions and the interference among multiple objects.
研究了微型传感器网络中感知信息的协同分类理论与技术。
5) Microsensor
[英]['maɪkrəʊ,sensə, -,sɔ:, -krə-] [美]['maɪkro,sɛnsɚ, -,sɔr, -krə-]
微型传感器
1.
Integration of Transformer and Microsensor;
变压器与微型传感器的一体化组合
2.
Microsensors Based on MEMS Technology;
基于MEMS技术的微型传感器
3.
Microfabrication of silicon nitride film applied in microsensor;
微型传感器中氮化硅薄膜的微加工技术
6) electric field sensor
电场传感器
1.
Design of an electro-optic integrated electric field sensor;
光电集成电场传感器的设计
2.
Design and simulation of a miniature electric field sensor based on MEMS technique;
基于MEMS技术的微型电场传感器设计与仿真
3.
Because of the faint electric field signal on sea-floor, the complex nature environment under the sea and chlorine ion as electric conduction in seawater, the material and the structure of the sea-floor electric field sensor is completely different from that of the electrode which is used on land.
因海底电场信号微弱、海下自然环境复杂以及海水导电介质以氯离子为主等原因,用于海下电场信号测量的电场传感器在材料和结构上有其特殊性。
补充资料:微型生物传感器
分子式:
CAS号:
性质:生物传感器微型化是当前生物传感器研究方向之一。微型化的目的是为实现活体(in vivo)测定。首先在于信号转换器的微型化,现已发展出微型氧传感器,微型CO2传感器,微型H2O2传感器等。其次可用离子敏场效应晶体管(ISFET)作换能器,即可开发出各种微型生物传感器。
CAS号:
性质:生物传感器微型化是当前生物传感器研究方向之一。微型化的目的是为实现活体(in vivo)测定。首先在于信号转换器的微型化,现已发展出微型氧传感器,微型CO2传感器,微型H2O2传感器等。其次可用离子敏场效应晶体管(ISFET)作换能器,即可开发出各种微型生物传感器。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条